Enhancing Functional Platelet Release In Vivo from in Vitro-Grown Megakaryocytes Using the Protein Kinase Inhibitor SU6656

The clinical demand for platelet transfusions is increasing, threatening the ability to obtain sufficient healthy donors to provide these platelets. Advances in regenerative medicine research have opened the possibility of generating sufficient in vitro-grown megakaryocytes and consequent platelets...

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Bibliographic Details
Published in:Blood 2016-12, Vol.128 (22), p.1029-1029
Main Authors: Jarocha, Danuta Jadwiga, Vo, Karen K, Lyde, Randolph B, Hayes, Vincent M, Poncz, Mortimer
Format: Article
Language:English
Online Access:Get full text
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Summary:The clinical demand for platelet transfusions is increasing, threatening the ability to obtain sufficient healthy donors to provide these platelets. Advances in regenerative medicine research have opened the possibility of generating sufficient in vitro-grown megakaryocytes and consequent platelets to supply a portion of the clinical platelet transfusion demand. We have shown that infusing megakaryocytes for obtaining released, functional platelets is a viable alternative strategy than trying to release platelets in vitro. However, for both approaches, in vitro-cultured megakaryocytes have lower ploidy and release fewer platelets than likely occurs in vivo by primary cells. SU6656 inhibitor, a Src kinase inhibitor, has been shown to influence ploidization in several megakaryocyte-like line with purported increase in proplatelets release. However, in our hands, other agents - such as the ROCK inhibitor Y27632 - while increasing polyploidization markedly, inhibited platelet release per infused megakaryocyte in vivo. We grew megakaryocytes from CD34+ cells for 12 days with or without SU6656 (2.5 µM) supplementation during the last 4 days. We found that the SU6656 inhibitor only increased the number of CD34+-derived megakaryocytes by ~15% at the end of the 12 day growth, but more markedly increase the percent of large megakaryocytes measured by FSC parameter in flow cytometry evaluation from 28 up to 41% and percent of high granular megakaryocytes from 27 to 45%. These changes were accompanied with a shift in average ploidy from 4.9 to 6.9 (p
ISSN:0006-4971
1528-0020
DOI:10.1182/blood.V128.22.1029.1029